Transient-Evoked OtoAcoustic Emissions (TEOAEs) were studied, with particular reference to their subject-dependent features. To this end, an electric model of the ear was implemented and validated. Simulated and natural TEOAEs were analyzed through a nonlinear analysis technique. The simulated signals were able to reproduce the dynamical features of the experimentally observed TEOAEs and, most importantly, the natural variability among individuals. The unexpected inverse relation between model complexity and adherence to the natural signals is commented
Reproducing Cochlear Signals by a Minimal Electroacoustic Model / Giovanna, Zimatore; Cavagnaro, Marta; A., Giuliani; Colosimo, Alfredo. - In: OPEN JOURNAL OF BIOPHYSICS. - ISSN 2164-5388. - 02:02(2012), pp. 33-39. [10.4236/ojbiphy.2012.22005]
Reproducing Cochlear Signals by a Minimal Electroacoustic Model
CAVAGNARO, Marta;COLOSIMO, Alfredo
2012
Abstract
Transient-Evoked OtoAcoustic Emissions (TEOAEs) were studied, with particular reference to their subject-dependent features. To this end, an electric model of the ear was implemented and validated. Simulated and natural TEOAEs were analyzed through a nonlinear analysis technique. The simulated signals were able to reproduce the dynamical features of the experimentally observed TEOAEs and, most importantly, the natural variability among individuals. The unexpected inverse relation between model complexity and adherence to the natural signals is commentedI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.